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首先在Moisan的温度和比生长率关系基础上,依据Shelford耐受性定律,建立了赤潮藻类温度生态幅(最适温度、适温范围、耐受范围)的定量表达模型。同时,依据此模型可定量导出赤潮藻类的生物学零度。其次,结合实验培养数据,建立了东海原甲藻比生长率的温度响应模式,并利用研究结果定量得到该藻种的温度生态幅,这与已有的实验研究和现场监测结果有较好的一致性。 相似文献
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藻类生长的光照生态辐是指在一定光照强度范围内藻类能生长和繁殖的水平范围,由藻类生长的最适光照强度、光照强度适宜生长范围和光照强度耐受限度构成。为了定量获取藻类生长的光照生态幅,在室内培养条件下,分别研究了三个温度(18、22、25℃)条件下六个不同光照强度[28.32、55.15、75.06、96.59、111.66和135.75μmol/(m2·s)]对米氏凯伦藻和东海原甲藻细胞数和最大比生长率的影响,依据Shelford耐受性定律建立了米氏凯伦藻和东海原甲藻的光照耐受性模型,并得到了藻类生长的最适光强、光强适宜生长范围和光强耐受限度的定量表达。结果表明:无论是米氏凯伦藻还是东海原甲藻,在同一温度条件下,在实验设定的光照强度水平范围内,均分别存在一个适宜藻类生长的最适光强Iopt,且当光强I ≤ Iopt时,藻类细胞密度和比生长率均随着光强的升高而显著增大;而当I ≥ Iopt时,藻类细胞密度和比生长率随着光强的升高而显著减小。此外,随着培养温度的升高,藻类细胞密度和比生长率均呈现"先升后降"的变化趋势。建立的藻类生长光照耐受性模型与Shelford耐受定律较为吻合,并定量得到了米氏凯伦藻在18、22、25℃下的最适生长光强分别为81.48、80.15、79.27μmol/(m2·s);光强适宜生长范围分别为33.11-162.96、32.57-160.3、32.03-158.54μmol/(m2·s);东海原甲藻在18、22、25℃下的最适生长光强分别为79.39、78.19、76.69μmol/(m2·s);光强适宜生长范围分别为31.89-158.78、31.77-156.38、31.18-153.38μmol/(m2·s)。 相似文献
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温度、盐度对具齿原甲藻生长的影响及其与中肋骨条藻的比较 总被引:23,自引:1,他引:22
在无菌条件下,单种培养具齿原甲藻以研究温度和盐度对其生长的影响。实验设计了5个温度梯度和6个盐度梯度,并计算了不同培养条件下藻细胞在指数生长期的比生长率。实验结果表明:具齿原甲藻生长的最适温、盐范围分别为22℃和25~31。温度对藻类生长的影响比盐度的要明显得多,而且藻生长的最适盐度有随着温度升高向低盐度偏移的趋势。同时,实验研究了同样条件下中肋骨条藻的生长情况,并与具齿原甲藻进行了比较,以试图探讨东海大规模爆发具齿原甲藻赤潮的原因。 相似文献
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渤海赤潮藻类生态动力学模型的非线性动力学研究 总被引:11,自引:3,他引:11
基于渤海典型赤潮藻类——中肋骨条藻 ,考虑浮游动物的捕食、光照及营养物质的作用 ,建立了渤海湾的浮游动物—藻类—营养物质三者的动力学模型。运用现代非线性动力学理论着重分析了模型的稳定性及分岔行为。研究了多个参数对藻类生长的影响 ,发现某些参数对藻类的生长影响不大 ,而某些参数则会致使藻类模型出现分岔乃至混沌行为 ,并给出了这些参数的阀值 ,这与赤潮的形成 (爆发性增殖 )密切相关 ;并根据渤海湾的赤潮数据进行了有效的数值模拟 ,所得结果对于研究赤潮的形成机理有一定的参考价值 相似文献
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利用测定净光合放氧速率的方法研究了温度、盐度、pH值和光照强度对东海原甲藻(Prorocentrum donghaiense)光合作用的影响.东海原甲藻适宜的温度范围是15~30℃,最适温度22~28℃,低于9℃和高于33℃,不能进行光合作用;适宜的盐度范围为22~35,最适盐度28~30;适宜的pH范围较小,为6.0~9.0, 最适pH值范围7.5~8.5,与所生活的海洋环境一致,pH高于9.5,不能进行有效的光合作用,pH10.0可致死全部细胞;光饱和点在600 μmol/(m~2·s)附近,在更高光强下没有发生光抑制.测定的对光合作用适宜的条件和最适条件与他人培养试验结果一致,与东海原甲藻赤潮发生现场的生态调查结果吻合.表明通过测定光合作用速率对主要生态因子变化的响应,可以掌握藻类生长繁殖对主要生态因子的要求以及对这些因子变化的适应能力.了解赤潮藻的生理生态特性是认识赤潮发生机理的基础,本研究结果为认识赤潮发生的机理提供了重要的信息. 相似文献
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α-1,4-葡聚糖裂解酶的动力学性质研究 总被引:1,自引:0,他引:1
Sun Xue 《中国海洋大学学报(自然科学版)》2000,30(Z1):230-236
红藻中的α-1,4-葡聚糖裂解酶是红藻淀粉的降解酶,除了 红藻淀粉外,它还可以作用于多种底物。文中分别以PNPG和可溶性淀粉作底物,以龙须菜的 几个品系作为材料,研究了该酶促反应的动力学方面的性质。以 PNPG作为底物,该酶在60m in内酶促反应速度与保温时间成线性关系;在野生型龙须菜品系中该酶的最适反应温度是50 ℃,在两种突变型品系中是40℃;最适pH范围在4.4~5.5;底物浓度是4mmol/L时达到最大反 应速度;葡萄糖对该酶促反应有明显的抑制作用。以可溶性淀粉作为底物,在反应60 min内 酶反应速度与保温时间成线性关系;最适反应温度为50℃;最适pH范围在5.0~5.8;底物浓 度是8mg/mL时达到最大反应速度;葡萄糖对可溶性淀粉的抑制作用比对PNPG的弱。 相似文献
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In the Maidao Ecological Laboratory of the Huanghai Sea Fisheries Research Institute in 1998 ~ 2000, the continuous flow-through method was adopted to determine the energy budget components and models of Schlegel' s black rockfish under different ecological and environmental factors, such as temperature, food species, body mass and feeding level, etc. The body mass of test fish ranged from 21.2 to 224.5 g. The specific growth rate tended to invert "U" change with temperature increase. The ecological conversion efficiency showed the same trend as temperature and feeding level rise. Only the specific growth rate tended to decelerate the increment with the rise of feeding level. From the above quantitative relationships, the maximum and optimal growth temper- atures could be obtained as 17.5 and 16.2 ℃, and the maintenance feeding rate and optimum feeding rate as 0.8% and 4. 1% of the body mass. The specific growth rate and ecological conversion coefficient showed a decelerating decrease trend with body mass increment. The small-sized fish food was more advantageous to the feeding level increase in comparison with the small-sized shrimp food, which led to the increase of growth, metabolism and excretion, but had no significant influence on the ecological conversion coefficient. All of temperature, feeding level, body mass and food species can obviously change the energy budget models. The assigning rate of growth energy tended to change along the invert "U" curve with the increase of temperature and feeding level, and decrease with the body mass increase, but the assigning rates of metabolism energy and excretion energy were quite reverse. These relationships could be quantitatively described as quadratic or power function curve. If the above relationships proved true to other marine fish, the establishment of energy budget model of the same fish under different conditions can be largely simplified. 相似文献
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盐度对鱼类生态生理学特征的影响 总被引:5,自引:0,他引:5
盐度对鱼类生态生理学作用的直接效应是引起鱼体对渗透压的调节,间接影响则表现为对鱼体与环境间物质交换与能量流动的影响(De Silva et al.,1976)。自上世纪50年代末开始,盐度一直是鱼类生理学和实验生物学的重要指标。为此,众多专家就广盐性洄游种类鲑鱼生长与盐度的关系(Ott,1971; Shaw et al.,1975; Macleod,1977; Brett,1979; Mckay et al.,1985; Mccormick et al.,1989; Morgan et al.,1991) 、耐低盐洄游性种类对海洋环境的适应(Peters et al.,1972; Hettler, 1976; Gut,1985; Malloy et al.,1991),以及狭盐性种类在变化盐度水域中生长率与死亡率等方面进行了大量的研究。已有的研究结果显示,盐度对鱼类生长的影响效果不尽一致,甚至发生冲突(Brett, 1979),但有关盐度对鱼类生态生理学特征的影响还未见综合比较分析报道。作者就盐度对鱼类生态生理学特征的影响在前人的基础上作了进一步分析研究,为今后开展这方面的工作提供了科学依据。 相似文献
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海洋声场环境是决定海军作战行动成败的重要组成要素之一,海洋的垂直温度结构作为影响声速场的最重要因素,为了更精确更为实际的反映其分布特点,对其各种数据进行同化研究是十分必要的。文中针对海温数据来源的特点,提出了一种海温数据同化的最优插值方法,较好地完成了各种观测数据与背景数据的同化,并用各种数据进行了检验,其结果表明,利用最优插值法对海温数据进行同化处理是可行的,且同化效果比较理想。 相似文献
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采用人工控温的方式, 对构建的31个F1红鳍东方鲀(Takifugu rubripes)全同胞家系开展低温胁迫实验, 获得耐低温性状低温累计存活时间(CDH), 基于混合线性模型分别开展耐低温性状和生长性状遗传参数评估,对每一性状是否需要考虑共同环境效应所构建的两种模型进行似然比检验。结果显示, 经似然比检验, 最终选用模型A和模型BF进行耐低温和生长性状遗传评估; 耐低温性状CDH遗传力为(0.27±0.08),属于中等遗传力; 体重BW遗传力为(0.36±0.13), 属于中等遗传力, 体长BL遗传力为(0.14±0.06), 属于低等遗传力, 经检验, 遗传力估计值均达到极显著水平(P<0.01)。CDH和体重、体长的遗传相关分别为(-0.40±0.22)和(-0.44±0.24), 表型相关分别为(-0.09±0.06)和(-0.16± 0.05), 均为负相关; 体重和体长之间的遗传相关为(0.92±0.05), 表型相关为(0.80±0.02), 呈正相关且结果极显著(P<0.01)。研究结果表明, 红鳍东方鲀的耐低温性状和生长性状都具有较好的改良潜力, 考虑到两性状间存在负遗传相关, 在开展耐低温选育时, 对首先不同性状进行品系选育, 然后利用品系间杂交培育出耐高温、生长快的新品种。该项研究首次完成了红鳍东方鲀耐低温性状的遗传参数评估, 为制订红鳍东方鲀耐低温选育育种规划提供了理论依据。 相似文献
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利用历史观测得到的温度剖面数据,通过严格筛选和插值,建立了南海北部的气候态垂向温度剖面。随后,利用回归统计分析的方法构建了海面温度异常(SSTA)、海面高度异常(SSHA)联合扩展温度剖面的经验回归模型,并采用卫星遥感得到的SST和SSH数据扩展了南海北部的三维海洋温度场,其时间分辨率为天,空间分辨率为0.25°×0.25°。通过与观测数据的对比研究,扩展得到的温度场可以较为准确地反映南海北部温度剖面的结构特征,并且能有效地体现出一些中尺度变化过程。结果表明,本研究反演得到的三维温度扩展场是较为可靠的,它可以作为海洋数值模型的初始场,实现现场观测数据和卫星遥感数据的互补,有助于更好地分析南海北部温度场的三维结构及变化特征。 相似文献
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Impact of seawater temperature on growth and recruitment of invasive fouling species at the global scale 下载免费PDF全文
Joshua P. Lord 《Marine Ecology》2017,38(2)
Epibenthic fouling communities are dominated by invasive species that are globally distributed and can have substantial ecological and economic impacts in coastal habitats. Little is known about inter‐specific differences in life history strategies that cosmopolitan invasive species employ to acquire space and succeed in invaded habitats. The goal of this study was to examine the impact of seawater temperature on recruitment and growth of several cosmopolitan fouling species including the tunicates Botrylloides violaceus, Botryllus schlosseri and Diplosoma listerianum, as well as the bryozoans Bugula neritina and Watersipora subtorquata. To do this, the iBARGE (Invasive Bryozoan and Ascidian Recruitment and Growth Experiment) program was developed, utilizing a global network of collaborators to examine patterns over a broad geographic scale and a wide range of naturally varying seawater temperatures. This project produced a data set of thousands of photographs from 18 marinas in five countries in summer 2014 and 2015, allowing for recruitment and growth to be tabulated at a variety of temperatures. Thermal growth curves were established for five invasive species, and growth was compared among temperatures across sites, revealing a significant thermal effect. Recruitment was linked to temperature, with generally higher recruitment at warmer seawater temperatures and the highest peak recruitment values for the bryozoan Bugula neritina. Temperature also changed the relative importance of growth and recruitment for several species. These results paint a complex picture of the interactions among invasive fouling species as they relate to seawater temperature. 相似文献
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Naoki Nagai Kazuaki Tadokoro Kazunori Kuroda Takashige Sugimoto 《Journal of Oceanography》2006,62(5):597-606
A long-term variation in dominant species of chaetognaths in the Tsushima Warm Current was analyzed using samples collected
four times a year from 1972 to 2002 by the Maizuru Marine Observatory along the PM transect in the Japan Sea. Of 19 occurring
species, 13 subtropical species formed a major portion of the standing stock. Species richness in the study area was similar
to that in the East China Sea and the South China Sea. Four species, Sagitta minima, S. nagae, S. enflata, S. elegans dominated in the upper 150 m water column. The most dominant species per season were S. minima in both winter and autumn, S. elegans in spring and S. nagae in summer. Water temperature and salinity ranges of the most frequent occurrence for three dominant species revealed a common
tendency in the order of S. nagae > S. minima > S. enflata towards colder temperature and higher salinity. Inter-annual abundance of chaetognath species fluctuated proportionally in
response to the warm or cool phases in water temperature. Water temperature was a fundamental factor in regulating distributional
occurrence, being more decisive than salinity. Changes of both dominant species and species numbers in relation to the reduced
abundance during winter to spring and the subsequent increase during summer to autumn might be caused by specific differences
in optimum temperature. Chaetognath species are important as an indicator of water masses and significant for our understanding
of changes and evaluations of the Japan Sea ecosystem. 相似文献